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Cellulose is the most abundant source of biomass, which can be converted into monosaccharide or other chemical platform molecules for the sustainable production of chemicals and fuels. Acid catalysts can promote hydrolytic degradation of cellulose into valuable platform molecules, which is of great significance in the development of chemicals and biofuels. However, there are still some shortcomings and limitations of the catalysts for the hydrolytic degradation of cellulosic biomass. Heteropoly acid (HPA), as a green catalyst, seems to be more conducive to the degradation of cellulosic biomass due to its extreme acidity. HPAs can be designed in homogeneous and heterogeneous systems. Moreover, they can be easily separated from the products in both systems by a simple extraction process. According to the unique properties of HPAs (e.g., good solubility, high thermal stability, and strong acidity), using heteropoly acid-based catalysts to depolymerize and convert cellulose into value-added chemicals and biofuels has become one of the most remarkable processes in chemistry for sustainability. In this review, the characteristics, advantages, and applications of HPAs in different categories for cellulose degradation, especially hydrolysis hydrolytic degradation, are summarized. Moreover, the mechanisms of HPAs catalysts in the effective degradation of cellulosic biomass are discussed. This review provides more avenues for the development of renewed and robust HPAs for cellulose degradation in the future.

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Catalytic cascade acetylation-alkylation of biofuran to C17 diesel precursor enabled by a budget acid-switchable catalyst

Luo

et al. 2021

Chinese Journal of Chemical Engineering

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Heterogeneous heteropolyacid-based catalysts for hydrolysis of cellulosic biomass

Luo

Sudarsanam

et al. 2022

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Low-temperature reduction of bio-based cinnamaldehyde to α,β-(un)saturated alcohols enabled by a waste-derived catalyst

Luo

Jian

2022

Catalysis Communications

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Room-temperature selective hydrogenation of unsaturated biomass feedstocks enabled by hydrosilane and eggshell-derived catalyst with enhanced basicity and hydrophobicity

Jian

Huang

Luo

et al. 2022

Biomass Conv. Bioref.

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Xiaoxiang Luo

Recent advances in liquid hydrosilane-mediated catalytic N-formylation of amines with CO₂

Heteropoly Acid-Based Catalysts for Hydrolytic Depolymerization of Cellulosic Biomass

Catalytic cascade acetylation-alkylation of biofuran to C17 diesel precursor enabled by a budget acid-switchable catalyst

Heterogeneous heteropolyacid-based catalysts for hydrolysis of cellulosic biomass

Low-temperature reduction of bio-based cinnamaldehyde to α,β-(un)saturated alcohols enabled by a waste-derived catalyst

Room-temperature selective hydrogenation of unsaturated biomass feedstocks enabled by hydrosilane and eggshell-derived catalyst with enhanced basicity and hydrophobicity

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Xiaoxiang Luo

Recent advances in liquid hydrosilane-mediated catalytic N-formylation of amines with CO2

Heteropoly Acid-Based Catalysts for Hydrolytic Depolymerization of Cellulosic Biomass

Catalytic cascade acetylation-alkylation of biofuran to C17 diesel precursor enabled by a budget acid-switchable catalyst

Heterogeneous heteropolyacid-based catalysts for hydrolysis of cellulosic biomass

Low-temperature reduction of bio-based cinnamaldehyde to α,β-(un)saturated alcohols enabled by a waste-derived catalyst

Room-temperature selective hydrogenation of unsaturated biomass feedstocks enabled by hydrosilane and eggshell-derived catalyst with enhanced basicity and hydrophobicity

Contact Info

Product

Resources

About

Recent advances in liquid hydrosilane-mediated catalytic N-formylation of amines with CO₂